DE2922476C2 - - Google Patents

Description

The invention relates to an axial needle bearing according to the preamble of Claim.

Such an axial needle bearing is known from FR-PS 15 46 291. It is not readily apparent whether this known bearing is a needle bearing with needles that have a small diameter in relation to their length, or whether it should generally be a roller bearing. In the case of an axial needle bearing, the races must be correspondingly close together with a small axial distance. In the known bearing, an elastic sealing ring is arranged between the axial flanges in the radial distance between their axially extending circumferential surfaces, which, according to FIG. 4 of FR-PS 15 46 291, is formed in one piece with a thin radial flange, which is the axial end of the inner race spreads. This can prevent or limit an axial movement of the sealing ring relative to the races. The inevitable axial movement of the races in operation causes an axial shear force on the sealing ring, so that its radial flange is quickly sheared off, whereby the actual sealing ring can fall out of the bearing. This danger is particularly great when it is a needle bearing with thin needles, since then the sealing ring must be axially short accordingly, which would only increase its tendency to shear off and fall out.

The invention is based on the object, in an axial needle bearing of the type mentioned, that is, in a bearing with a sealing ring, which in axial direction is very short (while it is proportional in the radial direction wide) to ensure that the sealing ring does not come off the barrel rings can be sheared off or stripped and fall out of the bearing.  

According to the invention, this object is achieved by the one specified in the patent claim Training solved.

The sealing ring is thus firmly ver with an annular metal disc bound, which in turn is fixed on the outside of one of the races. The Metal disc, which in turn carries the sealing ring firmly, prevents an axial movement of the sealing ring so that it does not detach from the races can slide off and fall out. By designing the warehouse with a attached to the sealing ring additional metal washer, which in turn is in stock, not only the actual elastomeric seal ring stiffened and thus secured, but above all it becomes secure is sufficient that the sealing ring is not stripped from the races and can fall out of the camp. So that is constructively simple Means an absolutely secure mounting even axially short sealing rings ensures.

The use of metallic stiffeners for sealing rings is for bearings known per se, e.g. B. from DE-GBM 18 79 013. Here, however, serves with Sealing ring connected metal disc not to hold the seal the camp.

An embodiment of the invention is described below with reference to the drawing explained.

The drawing shows in section a part of an inventive Camp.

A first axial race 10 is provided with an outer, axially directed flange 20 . A second axial race 70 includes an axially directed flange 72 and a radially directed ring portion 74 . In the radial space between the outer flange 20 and the inner flange 72 , a sealing ring 84 made of elastomeric material is arranged, which is fixedly connected to an annular metal disc, which consists of a radial plate 78 and an axially directed flange 80 , the flange 20th on the race 10 overlaps. The outer end 82 of the flange 80 is bent radially inward, whereby a small, radially directed part of the race 10 is surrounded by the end 82 of the flange 80 . The inwardly curved portion 82 prevents axial axial movement of the sealing ring 84 with respect to the race ring 10 . The inwardly curved portion 82 can be a fully annular, inwardly curved lip or else a plurality of separate, inwardly curved regions on the axial flange 80 .

Due to its contact with the elastomeric sealing ring 84, the annular part 74 of the race 70 prevents undesired longitudinal movement of the race 70 with respect to the elastomeric sealing ring 84 and the race 10 . The ring section 74 can extend radially outward beyond the inner circumference of the radial metal plate 78 .

The elastomeric sealing ring has a radially directed wall that is glued or otherwise firmly attached to the inner, radially directed surface of plate 78 . The elastomeric sealing ring 84 also has a contact area 89 in contact with the inner, radially directed surface 90 of the race 10 , and finally a sealing lip 91 with a loading area 92 in sliding sealing contact with the outer surface of the flange 72nd The race 70 rotates continuously or back and forth with respect to the race 10 . A similarly designed sealing ring can be used to seal the space between the inner circumferences of two races.

Instead of the axially extending flange 72 with the radially extending ring portion 74 , it is possible to use a truncated cone flange against which the sealing lip 91 seals and which is secured against axial run-off from the bearing by running against the metal plate 78 .

Claims (1)

Axial needle bearing with two axially spaced races with axially extending circumferential surfaces, which are at a radial distance from one another, within which a sealing ring made of elastomeric material is arranged, characterized in that the sealing ring ( 84 ) is fixed to an annular metal disc ( 78, 80 ) which, with a radially directed part ( 78 ) and an adjoining axially directed ring section ( 80 ), firmly engages over an axial flange ( 20 ) provided on one of the races ( 10 ).